Electronic Components All Sensors, Basic Components, and Other Important Components Used With Arduino [PDF]

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Electronic Components



(All



Sensors, Basic Components, and other Important Components Used with Arduino)



In this book, complete information about



important electronics components is given. which we use with Arduino. Most of the sensors details are given in this book. All the sensors we use with the Arduino. And some basic components details are also given in it, which all students should know about.  



Author Vijay Verma (Programmer & Projects Designer)



(I



have been working on Arduino based projects for 5 years)



Dedicate



This book is for all students, because it contains



the most important electronics components details. Which all students should know about, because students continue to need these components. If any student keeps experimenting at home or at school, then it is very important to know about these components. So that they can do their work easily. NOTE- And those who want to do shows in school and college exhibition by creating student projects, So they too



should know about all these electronics components so that they can make their project easily.  



Introduction In this book, complete information about important electronics components is given. which we use with Arduino. Most of the sensors details are given in this book. All the sensors we use with the Arduino. All the components are given in this book. Along with his image his basic details are also given, By which any student can easily understand about the components.  



Content List Part-1 1.All Basic Components Details Part-2 2. All Sensors Details ( Which are used with Arduino) Part-3 3. All components used with Arduino  



Part-1



1. All Basic Components Details



Resistance



Resistance is a measure of the opposition to



current flow in an electrical circuit. Resistance is measured in ohms, symbolized by the Greek letter omega (Ω). Ohms are named after Georg Simon Ohm (1784-1854), a German physicist who studied the relationship between voltage, current and resistance.



Resistance is the opposition that a substance offers to the flow of electric current of one ampere passes through component across which a potential difference (voltage) of one volt exits. Then the resistance of that component is one ohm.



Colour Band  



10 OHM Resistance, Voltage,



+/-5%



Resistance-10



ohm



1/4W Rating Power, 250V Withstand Resistance Tolerance, Carbon Film



Resistors. The carbon film resistor with wire leads for through-hole mounting. 10R / 10 ohm Resistor Colour Code Value



10 Ω



Type



4 Band Colour Code



Colour Code



Brown, Black, Black, Gold



Multiplier



Black, 1



Tolerance



Gold Band ±5%



100 OHM Resistance-A resistor is a passive two-terminal electrical component that implements electrical resistance as a circuit element. ... In electronic circuits, resistors are used to limit current flow, to adjust signal levels, bias active elements, and terminate transmission lines among other uses. 4-band 100 ohm resistor color code is calculated as: 1st-band= Brown= 1 (1st digit) 2nd-band= Black= 0 (2nd digit) 3rd-band= Brown= 1 (multiplier) = 10^1 = 10. 4th-band= Gold= ±5% (tolerance)



 



1k OHM Resistance-A resistor is a passive



two-terminal



electrical



component



that



implements electrical resistance as a circuit element. In



electronic circuits, resistors are used to reduce current flow, adjust signal levels, to divide voltages, bias active elements, and terminate transmission lines, among other uses.



1k0 / 1k ohm Resistor Colour Code Value Type Colour Code Multiplier Tolerance



1 kΩ / 1000 Ω 4 Band Colour Code Brown, Black, Red, Gold Red, 100 Gold Band ±5%



10k OHM Resistance-1/6th Watt, +/5% tolerance PTH resistors. Commonly used in PCBs and perf boards, these 10K resistors make excellent pull-ups, pull-downs, and current limiters. Because of the thin leads we don't recommend them for breadboards.



10k / 10k ohm Resistor Colour Code Value



10 kΩ



Type



4 Band Colour Code



Colour Code



Brown, Black, Orange, Gold



Multiplier



Orange, 1000



Tolerance



Gold Band ±5%



47k OHM Resiatnce-47K Ohm 1W MOR MOF RSF Series with ±5% Tolerance, General Purpose Metal



Oxide Film Resistors. 47K Ohm Resistor Color Code: Yellow, Violet, Orange, Golden. Approximate Max Current: 4.613mA. 47k / 47k ohm Resistor Colour Code Value



47 kΩ / 47000 Ω



Type



4 Band Colour Code System



Colour Code



Yellow, Violet, Orange, Gold



Multiplier



Orange, 1000



Tolerance



Gold Band ±5%



680 OHM Resistance-680 Ohm



1W High



Quality Carbon Film Resistor (CFR) with ±5% Tolerance and Tin Plated Copper Leads. 680 Ohm Resistor Color Code: Blue, Gray, Brown, Golden. Approximate Max Current: 38.348mA.



 



100k OHM Resistance-100K Ohm



1W



High Quality Carbon Film Resistor (CFR) with ±5% Tolerance and Tin Plated Copper Leads. 100K Ohm Resistor



Color



Code:



Brown,



Black,



Approximate Max Current: 3.162mA.



Yellow,



Golden.



 



220 OHM Resistance-A gold



tolerance



band is 5% tolerance, silver is 10%, and no band at all would mean a 20% tolerance. For example: A 220 Ω resistor has a silver tolerance band.



220R / 220 ohm Resistor Colour Code Value



220 Ω



Type



4 Band Colour Code System



Colour Code



Red, Red, Brown, Gold



Multiplier



Brown, 10



Tolerance



Gold Band ±5%



 



220k OHM Resistance-220K Ohm 1W High Quality Carbon Film Resistor (CFR) with ±5% Tolerance and Tin Plated Copper Leads. 220K Ohm Resistor Color Code: Red, Red, Yellow, Golden. Resistance: 220K Ohm, Power Rating: 1 Watt, Approximate Maximum Current: 2.13mA .



 



4.7k OHM Resistance-Let's take an example of a 5-band resistor with the colors given in the above image (brown, green, red, black and gold). So according to the formula the resistance will be: 152 * 1 = 152 Ohms with 5% tolerance.



 



68k OHM Resistance-68K Ohm 0.5W Carbon Film Resistor (CFR) with ±5% Tolerance. 68K Ohm Resistor Color Code: Blue, Gray, Orange, Golden. Resistance: 68K Ohm, Power Rating: 0.5 Watt, Approximate Maximum Current: 2.71mA .



330 OHM Resistance-330 ohm resistor color code for 4-band is calculated as: (1st digit) = Orange = 3. (2nd digit) = Orange = 3. (multiplier) = Brown = 1 = 10^1 = 10. (tolerance) = Gold= ±5%



 



270 OHM Resistance-270 Ohm Resistor Color Code: Red, Violet, Black, Black, Brown. Resistance: 270 Ohm, Power Rating: 0.5 Watt, Approximate Maximum Current: 43.03mA .



 



Preset



A preset resistor is a smaller PCB mounted version of a



potentiometer. These are useful where adjustment or configuration of a circuit needs to be made but such adjustment only occurs during building a circuit, not during normal use. An appropriate value for the PICAXE system is 10k (do not use 100k devices).



A preset is a three legged electronic component which can be made to offer varying resistance in a circuit. ... Such variable resistors are commonly used for adjusting sensitivity along with a sensor. It can act as a control on the amount of current flowing. Here is a picture of a variable resistor from a dimmer switch. A variable resistor



works by adjusting the path that current has to flow. Inside the resistor is a strip of metal or conducting ceramic which is connected to one part of the circuit.  



100 OHM Preset-100 Ohm Single Turn Preset - Variable Resistor - RM065 Rated Power: 100mW (0.1w), Resistance Tolerance:±20%.  



 



1k OHM Preset-The variable resistors are used for variating voltage as per the need in a circuit. The outer two pins are connected to Vcc and 0V, and center pin outputs a variable voltage between 0V and Vcc as the potentiometer is rotated.



 



2k OHM Preset-Full Power Rating Temperature: 85°C. Lead Diameter:



0.5mm. Operating Temperature Range: -55°C to +125°C. Resistance: 2Kohm.



 



5k OHM Preset-Full Power Rating Temperature: 85°C. Lead Diameter: 0.5mm. Operating Temperature Range: -55°C to +125°C. Resistance: 5Kohm.  



 



10k OHM PresetA preset resistor is a smaller PCB mounted version of a potentiometer. These are useful where adjustment or configuration of a circuit needs to be made but such adjustment only occurs during building a circuit, not during normal use. An appropriate value for the PICAXE system is 10k (do not use 100k devices).



 



50k OHM Preset-The variable resistors are used for variating voltage as per the need in a circuit. The outer two pins are connected to Vcc and 0V, and center pin outputs a variable voltage between 0V and Vcc as the potentiometer is rotated.



100k OHM Preset-The maximum resistance that a preset can provide is written on it. If 100K is written on preset, it means that we can vary its resistance from 0 Ohm to 100K. A movable metal is rotated in clockwise or anticlockwise direction that changes the resistance of preset.



 



Capacitor



A capacitor is a device that stores electrical energy



in an electric field. It is a passive electronic component with two terminals. The effect of a capacitor is known as capacitance. ... Capacitors are widely used as parts of electrical circuits in many common electrical devices.



A capacitor is a passive two-terminal electronic component that stores electrical energy in an electric field. The effect of a capacitor is known as capacitance. While some capacitance exists between any two electrical conductors in proximity in a circuit, a capacitor is a component designed to add capacitance to a circuit. The capacitor was originally known as a condenser or condensator.  



0.01 microfarad Capacitor-Ceramic Disc Capacitor 10nF. The marking on these capacitors is 103Z. Z refers to the dielectric type. 103 is the capacitance value in picofarads (pF) where this is read as 1,0, followed by three zeros. 0.01uF = 10nF = 10,000pF.



 



 



0.1 microfarad Capacitor-Max voltage: 50V. Radial Lead(pin) spacing: 5.08mm (0.2in) Radial Size: 5.08mm(0.2in) x 13mm(0.51in) (width x length including pins) ... Axial Size: 7.6mm (0.3in) x 11mm(0.43in) (width x length including pins).



10 Microfarad Capacitor-A ten microFarad capacitor is written as 10µF or 10uF. A one-hundred nano-Farad capacitor is written as 100nF or just 100n. It may be marked as 0.1 (meaning 0.1uF which is 100nF). Or it may be marked with 104, meaning 10 and four zeros: 100000pF which is equal to 100nF.



 



100 microfarad Capacitor-Electrolytic decoupling capacitors 100uF/25V. These capacitors are great transient/surge suppressors. Attach one between the power and ground of your project to ensure smooth power delivery. High quality radial electrolytic capacitors.



 



1000 microfarad Capacitor-This is a 1000uf 16 volts radial polarised good quality Electrolytic capacitor. Electrolytic capacitors are widely used in power supplies, switchedmode power supplies and DC-DC converters. This capacitor has long life, low leakage current and wide operating range.



 



4.7 microfarad Capacitor-



 



220 Microfarad Capacitor-220 mF Model of the Supercapacitor DMT Series Supercapacitors (EDLCs) are energy storage devices with longer lifetime than batteries and higher capacitance than what is typically found in conventional capacitor



technology,



such



as



ceramic



capacitors



or



electrolytic capacitors.



 



2.2 Microfarad Capacitor-Features of uf/50v



electrolytic



capacitor:



type:



electrolytic.



2.2



Operating



voltage: 50v. Capacitance: 2.2 uf. Applications of 2.2 uf/50v electrolytic capacitor: noise filteration.



 



Transistor amplify or switch



A transistor is a semiconductor device used to electronic signals and electrical power. It is



composed of semiconductor material usually with at least three terminals for connection to an external circuit. A voltage or current applied to one pair of the transistor's terminals controls the current through another pair of terminals. Because the controlled (output) power can be higher than the controlling (input) power, a transistor can amplify a signal. Today, some transistors are packaged individually, but many more are found embedded in integrated circuits.



 



Transistor BC547-BC547 is an NPN bi-polar junction transistor. A transistor, stands for transfer of resistance, is commonly used to amplify current. A small current at its base controls a larger current at collector & emitter terminals. ... Its equivalent transistors are BC548 and BC549.



 



 



Transistor BC548-The BC548 is a general-purpose NPN bipolar junction transistor commonly used in European and American electronic equipment. It is notably often the first type of bipolar transistor hobbyists encounter and is often featured in designs in hobby electronics magazines where a general-purpose transistor is required.



 



Transistor BC557-BC557 is a PNP transistor hence the collector and emitter will be closed (Forward biased) when the base pin is held at



ground and will be opened (Reverse biased) when a signal is provided to base pin.



 



Transistor BC558-BC558 is a general purpose PNP transistor. It is used in switching and amplifier applications. The DC current gain varies in range 110 to 800. ... For switching applications,transistor is biased so that it remains fully on if there is a signal at its base.



 



IC( Integrated circuit)



Integrated circuit (IC), also



called microelectronic circuit, microchip, or chip, an assembly of



electronic



components,



fabricated



as



a



single



unit,



in



which



miniaturized active devices (e.g., transistors and diodes) and passive devices (e.g., capacitors and resistors) and their interconnections are built up on a thin



IC358-



The LM358 IC is a great, low power and easy to use dual channel opamp IC. It is designed and introduced by national semiconductor. It consists of two internally frequency compensated, high gain, independent op-amps. This IC is designed for specially to operate from a single power supply over a wide range of voltages. The LM358 IC is available in a chip sized package and applications of this op amp include conventional op-amp circuits, DC gain blocks and transducer amplifiers. LM358 IC is a good, standard operational amplifier and it is suitable for your needs. It can handle 3-32V DC supply & source up to 20mA per channel. This op-amp is apt, if you want to operate two separate op-amps for a single power supply. It’s available in an 8-pin DIP package.



 



IC386-The LM386 is a low power audio frequency amplifier which is very commonly used in small audio amplifiers. The IC consumes very less power and hence can be operated using a 9V battery easily. It can easily drive an 8-ohm speaker with a variable gain of 20 to200. Volume control and gain control is also possible in this.



IC555The 555 timer IC is an integrated circuit (chip) used in a variety of timer, pulse generation, and oscillator applications. The 555 can be used to provide time delays, as an oscillator, and as a flip-flop element. Derivatives provide two (556) or four (558) timing circuits in one package.



 



IC4017-Most of us are more comfortable with 1, 2, 3, 4… rather than 001, 010, 011, 100. We mean to say that we will need a decimal coded output in many cases rather than a raw binary output. We have many counter ICs available but most of them produce binary data as an output. We will again need to process that output by using decoders or any other circuitry to



make it usable for our application in most of the cases. Let us now introduce you a new IC named IC 4017. It is a CMOS decade counter cum decoder circuit which can work out of the box for most of our low range counting applications. It can count from zero to ten and its outputs are decoded. This saves a lot of board space and time required to build our circuits when our application demands using a counter followed by a decoder IC. This IC also simplifies the design and makes debugging easy.



IC UM66-UM66



is



a



melody



generating



IC



commonly used in calling bell, phone, toys, musical bell in doors, home security alarm systems, burglar alarms etc. It is a three pin IC looks like a transistor. Its first pin is ground, second is VCC and the third is the melody output.



 



IC3130-CA3130A and CA3130 are op amps that combine the advantage of both CMOS and bipolar transistors. Gateprotected P-Channel MOSFET (PMOS)



transistors are used in the input circuit to provide very-high-input impedance, very-low-input current, and exceptional speed performance.



IC3140-The CA3140 is a 4.5MHz, BiMOS Operational Amplifier with MOSFET Input/Bipolar Output that combines the advantages of high voltage PMOS transistors with high voltage bipolar transistors on a single monolithic chip.



IC7805-7805



is a three terminal linear voltage



regulator IC with a fixed output voltage of 5V which is useful in a wide range of applications. Currently, the 7805 Voltage Regulator IC is manufactured by Texas Instruments, ON



Semiconductor,



STMicroelectronics,



Diodes



incorporated, Infineon Technologies, etc.



IC7905-In our case the



7905 IC is an negative



5V regulator, meaning it provides -5V as output. The name 7905 signifies two meaning, “79” means that it is a negative voltage regulator and “05” means that it provides 5V as output. So our 7905 will provide a -5V output voltage.



 



IR LED-



IR LED stands for “Infrared Light Emitting Diode”, they allows to emit light with the wavelength of up to 940nm, which is the infrared range of electromagnetic radiation spectrum. The wavelength range varies from 760nm to 1mm. ... The semiconductor material used to make these LEDs are gallium arsenide or aluminum arsenide.



PhotodiodeA photodiode is a semiconductor device that converts light into an electrical current. The current is generated when photons are absorbed in the photodiode. Photodiodes may contain optical filters, built-in lenses, and may have large or small surface areas. ... A photodiode is designed to operate in reverse bias.



 



Diode 1N4007-1N4007 is a rectifier diode, designed specifically for circuits that need to convert alternating current to direct current. It can pass currents of up to 1 A, and have peak inverse voltage (PIV) rating of 1,000 V. Note: This product



has a minimum quantity restriction (10nos) for order.



Zener



Diode-A



Zener



diode



is



a



silicon



semiconductor device that permits current to flow in either a forward or reverse direction. ... Additionally, the voltage drop across the diode remains constant over a wide range of voltages, a feature that makes Zener diodes suitable for use in voltage regulation.



 



LDR-A Light Dependent Resistor (LDR) is also called a photoresistor or a cadmium sulfide (CdS) cell. ... It is basically a photocell that works on the principle of photoconductivity. The passive component is basically a resistor



whose



resistance



intensity of light decreases.



value



decreases



when



the



Potentiometer-A



potentiometer



is



a



three-



terminal resistor with a sliding or rotating contact that forms an adjustable voltage divider. ... If only two terminals are used, one end and the wiper, it acts as a variable resistor or rheostat.



 



Condenser Microphone-Condenser microphones use a pair of charged metal plates, one fixed (the back plate) and one movable (the diaphragm), forming a capacitor. When a sound wave hits the diaphragm, the distance between the two plates changes which produces a change in an electrical characteristic called capacitance.



 



8 OHM Speaker-The purpose of



speaker



is to produce audio output that can be heard by the listeners. ... Like this speaker has 8 ohms of impedance and comes with a power handling capacity of 1W.



 



LEDs-In the simplest terms, a lightemitting diode (LED) is a semiconductor device that emits light when an electric current is passed through it. Light is produced when the particles that carry the current (known as electrons and holes) combine together within the semiconductor material.



Buzzer-A buzzer or beeper is an audio signalling device, which may be mechanical, electromechanical, or piezoelectric (piezo for short). Typical uses of buzzers and beepers include alarm devices, timers, and confirmation of user input such as a mouse click or keystroke.



 



9 volt Battery Cap-This simple cable has so many uses! Plug the battery



clip onto a standard 9V battery and connect the other end to any device that needs 9V. The Connector leads are polarity color coded, Red and Black.



9 volt Battery-The



nine-volt battery, or 9-volt



battery, is a common size of battery that was introduced for the early transistor radios. It has a rectangular prism shape with rounded edges and a polarized snap connector at the top. This type is commonly used in walkie-talkies, clocks and smoke detectors.



 



PCB



Transformer 6-0-6Transformer has 240 V primary windings and centre tapped secondary winding. The transformer has flying colored insulated connecting leads ( Approx 100 mm long ). The Transformer act as step down transformer reducing AC - 240V to AC - 6V. The Transformer gives two outputs of 12V, 6V and 0V.



 



Switch-



Wire-



 



Push Button-



 



Part-2



2. All Sensors Details



PIR Sensor-PIR sensors



allow you to sense



motion, almost always used to detect whether a human has moved in or out of the sensors range. They are small, inexpensive, low-power, easy to use and don't wear out. ... They are often referred to as PIR, "Passive Infrared",



"Pyroelectric", or "IR motion" sensors a. How does a PIR motion sensor work? A passive infrared sensor (PIR sensor) is an electronic sensor that measures infrared (IR) light radiating from objects in its field of view. They are most often used in PIR-based motion detectors. ... They work entirely by detecting infrared radiation (radiant heat) emitted by or reflected from objects b. What is the output of PIR sensor? It has a built-in voltage regulator so it can be powered by any DC voltage from 4.5 to 12 volts, typically 5V is used. Other than this, there are a couple options you have with your PIR



 



IR Sensor-IR sensor



is an electronic device, that



emits the light in order to sense some object of the surroundings. An IR sensor can measure the heat of an object as well as detects the motion. Usually, in the infrared spectrum, all the objects radiate some form of thermal radiation.



 



a. How does the IR sensor work? Active infrared sensors both emit and detect infrared radiation. ... When an object comes close to the sensor, the infrared light from the LED reflects off of the object and is detected by the receiver. Active IR sensors act as proximity sensors, and they are commonly used in obstacle detection systems (such as in robots). b. What is the output of IR sensor? IR detectors are digital out - either they detect 38KHz IR signal and output low (0V) or they do not detect any and output high (5V). Photocells act like resistors, the resistance changes depending on how much light they are exposed to.  



Soil Moisture Sensor-The



Soil Moisture



Sensor uses capacitance to measure the water content of soil (by measuring the dielectric permittivity of the soil, which is a function of the water content). Simply insert this rugged sensor into the soil to be tested, and the volumetric water content of the soil is reported in percent.



a. How does a soil moisture sensor work? A small charge is placed on the electrodes and electrical resistance through the sensor is measured. As water is used by plants or as the soil moisture decreases, water is drawn from the sensor and



resistance increases. Conversely, as soil moisture increases, resistance decreases. b. What is the output of soil moisture sensor? The output of the soil moisture sensor changes in the range of ADC value from 0 to 1023. This can be represented as moisture value in terms of percentage using formula given below. For zero moisture, we get maximum value of 10-bit ADC, i.e. 1023. This, in turn, gives 0% moisture



Fire Sensor-A



sensor which is most sensitive to a



normal light is known as a flame sensor. That's why this sensor module is used in flame alarms. This sensor detects flame otherwise wavelength within the range of 760 nm – 1100 nm from the light source. ... The output of this sensor is an analog signal or digital signal.



a. How does a fire sensor work? A fire detector works by detecting smoke and/or heat. These devices respond to the presence of smoke or extremely high temperatures that are present with a fire. However, other sensors are multi-function, and they will detect the presence of both smoke and high temperatures. ... b. What are the specifications of a flame sensor? The IR flame sensor is used to detect the presence of fire or other infrared source (Flame or a light source of a wavelength in the range of 760 nm to 1100 nm can be detected).  



Ultrasonic Sensor-An



ultrasonic sensor is an



electronic device that measures the distance of a target



object by emitting ultrasonic sound waves, and converts the reflected sound into an electrical signal. Ultrasonic waves travel faster than the speed of audible sound (i.e. the sound that humans can hear).



 



  a. How does the ultrasonic sensor work? An ultrasonic sensor is an electronic device that measures the distance of a target object by emitting ultrasonic sound waves, and converts the reflected sound into an electrical signal. Ultrasonic waves travel faster than the speed of audible sound (i.e. the sound that humans can hear). b. What is the output of ultrasonic sensor? The sensor is small, easy to use in any robotics project and offers excellent non-contact range detection between 2 cm to 400 cm (that's about an inch to 13 feet) with an accuracy of 3mm. Since it operates on 5 volts, it can be hooked directly to an Arduino or any other 5V logic microcontrollers.  



DHT11 Sensor-The



DHT11 is a basic, ultra low-



cost digital temperature and humidity sensor. It uses a capacitive humidity sensor and a thermistor to measure the surrounding air, and spits out a digital signal on the data pin (no analog input pins needed). Its fairly simple to use, but requires careful timing to grab data.



a. How does a DHT11 sensor work? The DHT11 calculates relative humidity by measuring the electrical resistance between two electrodes. The humidity sensing component of the DHT11 is a moisture holding substrate with the electrodes applied to the surface. b. What is the output of DHT11 sensor? DHT11 Specifications: Operating Voltage: 3.5V to 5.5V. Operating current: 0.3mA (measuring) 60uA (standby) Output: Serial data. Temperature Range: 0°C to 50°C.  



MQ135



Sensor-Air



quality



sensor



for



detecting a wide range of gases, including NH3, NOx, alcohol, benzene, smoke and CO2. Ideal for use in office or factory. MQ135 gas sensor has high sensitivity to Ammonia, Sulfide and Benze steam, also sensitive to smoke and other harmful gases.



a. How does MQ135 sensor work? An alcohol sensor detects the attentiveness of alcohol gas in the air and an analog voltage is an output reading. The sensor can activate at temperatures ranging from -10 to 50° C with a power supply is less than 150 Ma to 5V. The sensing range is from 0.04 mg/L to 4 mg/L, which is suitable for breathalyzers. b. How do you calibrate a MQ 135 sensor? While using the library-supported Arduino setup, MQ-135 gas sensor calibration is done at first by finding the value of Ro in fresh air, and then using that value to find Rs through the formula: Rs = (Vcc/VRL-1)x RL, that means Rs = (5V/(sensorValue * (5.0/1023.0))-1)*RL.  



MQ3 Sensor-It is semiconductor sensor



a which



low can



cost



detect



the



presence of alcohol gases at concentrations from 0.05 mg/L to 10 mg/L. The sensitive material used for this sensor is SnO2,



whose



conductivity



is



lower



in



clean



air.



It's



conductivity increases as the concentration of alcohol gases increases.



a. How does MQ3 sensor works? MQ-3 gas sensor has high sensitity to Alcohol, and has good resistance to disturb of gasoline, smoke and vapor. This sensor provides an analog resistive output based on alcohol concentration. When the alcohol gas exist, the sensor's conductivity gets higher along with the gas concentration rising. b. How do you calibrate a MQ-3 sensor? Sensor Calibration Challenges The poorly written MQ-3 datasheet says to calibrate the sensor by exposing it to a known alcohol gas of 0.4mg/L. From there, you can determine gas alcohol content in terms of mg/L.  



MQ9 Sensor-Sensitive material of the MQ9 gas sensor is SnO2, which with lower conductivity in clean air. It makes detection by the method of cycle high and low temperature, and detect CO when the low temperature (heated by 1.5V). ... When a high temperature (heated by 5.0V), it detects Methane, Propane, etc.



a. How does MQ-9 sensor work? Sensitive material of MQ-9 gas sensor is SnO2, which with lower conductivity in clean air. It make detection by method of cycle high and low temperature, and detect CO when low temperature (heated by 1.5V). ... When high temperature (heated by 5.0V), it cleans the other gases adsorbed under low temperature. b. How do you calibrate a MQ9 sensor? Calibration. You would need to calibrate the MQ-9 gas sensor and generate an equation that converts the analog values to PPM. To calibrate, you need to use a sample of known concentration in ppm or a CO gas meter.  



MQ4 Sensor-MQ4 Methane Gas Sensor detects the concentration of methane gas in the air and ouputs its reading as an analog voltage. The concentration sensing range of 300 ppm to 10,000 ppm is suitable for leak detection. ... The sensor can operate at temperatures from -10 to 50°C and consumes less than 150 mA at 5 V.



a. What is MQ4 gas sensor? MQ4 Methane Gas Sensor detects the concentration of methane gas in the air and ouputs its reading as an analog voltage. The concentration sensing range of 300 ppm to 10,000 ppm is suitable for leak detection. ... The sensor can operate at temperatures from -10 to 50°C and consumes less than 150 mA at 5V b. How do you calibrate a MQ4 sensor? Calibration. You would need to calibrate the MQ-4 gas sensor and generate an equation that converts the analog values to PPM. To calibrate, you need to use a sample of known concentration in ppm or a CO gas meter.



 



Sound Sensor-A



Sound Sensor is a simple device



that detects sound. It is simply put a Microphone with some processing circuit. Using a Sound Sensor, you can measure the intensity of sound from different sources like knocks, claps, loud voices, etc. The Sound Sensor used in this project is shown in the image below.



a. How does a sound sensor work? Sound sensors work by detecting differences in air pressure and transforming them into electrical signals. ... Sound waves cause the diaphragm to vibrate, which vibrates the magnets and induces a current in the coil. The most common microphones used for music are dynamic, ribbon or condenser microphones. b. How do you calibrate a sound sensor? Now to calibrate the sensor, start clapping near the microphone and adjust the potentiometer until you see the Status LED on the module blink in response to your claps. That's it your sensor is now calibrated and ready for use.  



Thermal Sensor-The TMP36



temperature



sensor is an easy way to measure temperature using an Arduino! The sensor can measure a fairly wide range of temperature (-50°C to 125°C), is fairly precise (0.1°C resolution), and is very low cost, making it a popular choice.



a. What is thermal sensor? Temperature sensors are constructional elements for measuring temperature and employ the functional dependence of a certain physical property of the sensor material on temperature. b. What is the use of thermal sensor? Non-contact temperature sensors are usually infrared (IR) sensors. They remotely detect the IR energy emitted by an object and send a signal to a calibrated electronic circuit that determines the object's temperature. Among the contact temperature sensors are thermocouples and thermistors.  



Photosensitive Sensor-LDR



sensor module



is used to detect the intensity of light. It is associated with both analog output pin and digital output pin labelled as AO and DO respectively on the board. ... The sensor has a potentiometer knob that can be adjusted to change the sensitivity of LDR towards light.



a. What is a photosensitive sensor? Light Sensors. Light Sensors are photoelectric devices that convert light energy (photons) whether visible or infra-red light into an



electrical (electrons) signal. b. How do LDR sensors work? The working principle of an LDR is photoconductivity, which is nothing but an optical phenomenon. When the light is absorbed by the material then the conductivity of the material enhances. When the light falls on the LDR, then the electrons in the valence band of the material are eager to the conduction band. c. What are the types of LDR? Light dependent resistors, LDRs or photoresistors fall into one of two types or categories: Intrinsic photoresistors: Intrinsic photoresistors use un-doped semiconductor materials including silicon or germanium.  



Vibration Sensor-When no



vibration is



detected,



is



Vibration



sensor



output



0



(low



voltage),otherwise its output is 1(high voltage) 。



If



Arduino get 0 (no vibration) from vibration sensor it will turn on green LED and turn off Red LED. If Arduino get 1 from vibration sensor, it will turn on Red LED and turn off green LED.



a. What is vibration sensor? The vibration sensor is also called a piezoelectric sensor. These sensors are flexible devices which are used for measuring various processes. This sensor uses the piezoelectric effects while measuring the changes within acceleration, pressure, temperature, force otherwise strain by changing to an electrical charge. b. What are the three types of vibration? Machinery Vibrations can again be categorised into three types, depending on the nature of the vibrations:



Torsional Vibration. Axial or Longitudinal Vibration. Lateral Vibration.  



Rain Sensor-The



rain sensor detects water that



comes short circuiting the tape of the printed circuits. The sensor acts as a variable resistance that will change status : the resistance increases when the sensor is wet and the resistance is lower when the sensor is dry.



a. How do rain sensors work? The rain sensor works on the principle of total internal reflection. ... An infrared light beams at a 45-degree angle on a clear area of the windshield from the sensor inside the car. When it rains, the wet glass causes the light to scatter and lesser amount of light gets reflected back to the sensor. b. What is raindrop sensor? Raindrop Sensor is a tool used for sensing rain. It consists of two modules, a rain board that detects the rain and a control module, which compares the analog value, and converts it to a digital value c. What is the use of rain detector? Rain water detector will detect the rain and make an alert; rain water detector is used in the irrigation field, home automation, communication, automobiles etc. Here is the simple and reliable circuit of rain water detector which can be constructed at low cost



TILT Sensor-A



Tilt Sensor switch is an electronic



device that detects the orientation of an object and gives its output High or Low accordingly. Basically, it has a



mercury ball inside it which moves and makes the circuit. So tilt sensor can turn on or off the circuit based on the orientation.



a. How does a tilt sensor work? Tilt sensor produces an electrical signal which is proportional to the degree of tilt in multiple axes (Uniaxial & Biaxial). Tilt sensors measure the tilting position with its original reference. This sensor provides valuable information about both the vertical and horizontal inclination tilt. b. How do you test a tilt sensor? Testing your sensor is simple. Put your multimeter into continuitytest mode and touch the probes to the two leads. Then tilt to determine the angle at which the switch opens and closes. When pointing down, the switch is Open Loop (no continuity).  



Voltage Sensor-The



Voltage



Sensor



is



a



simple module that can used with Arduino (or any other microcontroller with input tolerance of 5V) to measure external voltages that are greater than its maximum acceptable value i.e. 5V in case of Arduino. Following is the image of the Voltage Sensor Module used in this project.



a. How does a voltage sensor work? A voltage sensor is a sensor used to calculate and monitor the amount of voltage in an object. Voltage sensors can determine the AC voltage or DC voltage level. The input of this sensor is the voltage, whereas the output is the switches, analog voltage signal, a current signal, or an audible signal. b. How do you measure voltage with a sensor? Input and output voltage can be calculated using: Vin = Vout * (R2/(R1+R2)) Here R1 = 30K ohm and R2 = 7.5K ohm Vout = (analogvalue * 5 / 1024). c. Can Arduino detect voltage? It's relatively simple to use an Arduino to measure voltages. The Arduino has several analog input pins that connect to an analog-todigital converter (ADC) inside the Arduino. The Arduino ADC is a tenbit converter, meaning that the output value will range from 0 to 1023.  



Water Flow Sensor-Water Flow Sensor, as the name suggests, is a device to measure the flow of water. ... It has a plastic valve body with a rotor and a hall sensor circuit. It has three wires namely +5V (Red), GND (Black) and Output (Yellow). Since it works on +5V, it can be interfaced with any microcontroller like Arduino, for example.



a. What is a water flow sensor? Water Flow Sensor. Water flow sensors are installed at the water source or pipes to measure the rate of flow of water and calculate the amount of water flowed through the pipe. Rate of flow of water is measured as liters per hour or cubic meters. b. How do water flow sensors work? The mechanical types of water flow meters work by measuring the speed of water flowing through the pipe that causes a piston or turbine to rotate. The volumetric flow rate of the water is proportional to the rotational speed of the blades. c. What is the use of flow sensor? Flow sensors are devices used for measuring the flow rate or quantity of a moving liquid or gas (22). New materials have been introduced into flow sensors to improve their performance.  



Touch Sensor-Touch sensor



(also called



touch button or touch switch) is widely used to control devices (e,g. touchable lamp). It has the same functionality as a button.



 



a. How does the touch sensor work? Touch sensors work similar to a switch. When they are subjected to touch, pressure or force they get activated and acts as a closed switch. When the pressure or contact is removed they act as an open switch. Capacitive touch sensor contains two parallel conductors with an insulator between them. b. What is the application of touch sensor? A touch sensor is an electronic sensor used in detecting and recording physical touch. Also known as tactile sensors, it's a small, simple, low-cost sensor made to replace old mechanical switches we seen in the past.  



Gyroscope Sensor-The



gyroscope sensor



measures rotational velocity or rate of change of the angular position over time, along the X, Y and Z axis.



a. How does a gyroscope sensor work? The motion of a pair of sensing arms produces a potential difference from which angular velocity is sensed. The angular velocity is converted to, and output as, an electrical signal. 4. The stationary part bends due to vertical drive arm vibration, producing a sensing motion in the sensing arms. b. What does a gyroscope measure? The gyroscope maintains its level of effectiveness by being able to measure the rate of rotation around a particular axis. When gauging



the rate of rotation around the roll axis of an aircraft, it identifies an actual value until the object stabilizes out.  



CO2 Sensor MH-Z16-Infrared



CO2 sensor



MH-Z16 Is a general-purpose, small sensors, the use of non-dispersive infrared (NDIR) Present in the principle of the



air



CO2



dependent,



Detect,



long



life,



with



good



built-in



selectivity,



temperature



oxygensensor,



temperature compensation, with UART output, easy to use.



 



 



pH Sensor-Analog



pH sensor is designed to



measure the pH value of a solution and show the acidity or alkalinity of the substance. It is commonly used in various applications such as agriculture, wastewater treatment, industries, environmental monitoring, etc.



  a. What are pH sensors?



A pH sensor helps to measure the acidity or alkalinity of the water with a value between 0-14. When the pH value dips below seven, the water starts to become more acidic. ... Each type of pH sensor works differently to measure the quality of the water. The pH of water can help determine the quality of water. b. How does a pH sensor work? With the glass electrode, a glass membrane is fused on as a pH sensor. This membrane is filled with a buffer solution of known pH (typically pH = 7). ... The difference in H+ ions creates a potential that is read versus the stable potential of the reference electrode. c. How is pH calculated? To calculate the pH of an aqueous solution you need to know the concentration of the hydronium ion in moles per liter (molarity). The pH is then calculated using the expression: pH = - log [H3O+]. ... Example: What is the pOH of a solution that has a hydroxide ion concentration of 4.82 x 10-5 M?  



EC Sensor-Plug and play conductivity sensor for Arduino is a convenient way to measure water salinity . Analog unit receives power from Arduino's 5v power supply and provides 0-5v output to any of it's analog inputs.



a. How does EC sensor work? The Vernier Conductivity Probe measures the ability of a solution to conduct an electric current between two electrodes. In solution, the current flows by ion transport. Therefore, an increasing concentration of ions in the solution will result in higher conductivity values. ... This current is converted into a voltage. b. How is EC measured? EC is measured in units called Seimens per unit area (e.g. mS/cm, or miliSeimens per centimeter), and the higher the dissolved material in a



water or soil sample, the higher the EC will be in that material. c. What is EC value? EC stands for Electric Conductivity. Simply put, the EC value is the salt concentration in your substrate or in the nutrient solution. The salt concentration is a good indication of the available nutrients. This is why the EC value is important: it tells you if your plants are receiving the right amount of nutrients.  



Water Pressure Sensor/ Liquid Pressure Sensor-This is a water pressure sensor that adopts DFRobot Gravity 3-pin interface. It supports standard 5V voltage input and 0.5~4.5V linear voltage output. It is compatible with multiple Arduino controllers. ... It will help you to diagnose whether there is water, how strong the water pressure is.



 



  a. How does a water pressure sensor work? Water pressure sensors are transducers, generating an electrical signal in proportion to the pressure they measure. ... This resistance is used to modify the output voltage of the sensor. Some water pressure sensors provide zero-based outputs, where zero pressure results in no output signal at all. b. Where would a pressure sensor be used? Pressure sensors are used for control and monitoring in thousands of everyday applications. Pressure sensors can also be used to indirectly measure other variables such as fluid/gas flow, speed, water level, and altitude.  



Force Force



Pressure



Sensitive



Resistor



Sensor-Interfacing to



Arduino.



An



FSR(Force



Sensitive Resistor) is a sensor that allows you to measure physical pressure, weight and squeezing. They are pretty much used in DIY electronics as they are available at low cost.



 



  a. How does a force sensor work? The working principle of a force sensor is that it responds to the applied force, as well as converts the value to a measurable quantity. ... These contain a conductive polymer film, which changes its resistance in a predictable way once force is applied on the surface.  



BMP180 BMP180



Pressure



Sensor-The



barometric pressure sensor is a great



sensor that can be used to predict the weather, detect altitude, and measure vertical velocity. ... In this tutorial, I'm going to show you how to setup the BMP180 on an Arduino, so you can measure barometric pressure, and altitude from the ground or from sea level.



  a. What is BMP180 pressure sensor? BMP180 is one of sensor of BMP XXX series. They are all designed to measure Barometric Pressure or Atmospheric pressure. BMP180 is a high precision sensor designed for consumer applications. Barometric Pressure is nothing but weight of air applied on everything. b. How does a barometer sensor work? How it works: Aneroid barometer consists of an aneroid cell inside. The aneroid cell expands/contracts when there are small changes to atmospheric pressure. This movement from the aneroid cell causes mechanical levers to amplify, resulting in display pointers to trigger and register as readings on the front display.  



BME280 Pressure Sensor-The



BME280



sensor module reads barometric pressure, temperature, and humidity. Because pressure changes with altitude, you can also estimate altitude. There are several versions of this sensor module. The BME280 sensor uses I2C or SPI communication



protocol



microcontroller.



a. What is BME280 sensor?



to



exchange



data



with



a



The BME280 is a humidity sensor especially developed for mobile applications and wearables where size and low power consumption are key design parameters. The unit combines high linearity and high accuracy sensors and is perfectly feasible for low current consumption, long-term stability and high EMC robustness. b. How does a BME280 work? The BME280 sensor module reads barometric pressure, temperature, and humidity. Because pressure changes with altitude, you can also estimate altitude. There are several versions of this sensor module. The BME280 sensor uses I2C or SPI communication protocol to exchange data with a microcontroller.  



Color Sensor-A



Color Sensor, as the name



suggests, is a device that senses or detects colors. A color sensor will use an external means of emitting light (like an array of white LEDs) and then analyse the reflected light from the object in order to determine its color.



  a. How does the color sensor work? A color sensor is a type of "photoelectric sensor" which emits light from a transmitter, and then detects the light reflected back from the detection object with a receiver. b. What are the main parts of a color sensor? A light source to illuminate the material surface, a surface whose color has to be detected and the receivers which can measure the reflected wavelengths. Colour sensors contain a white light emitter to illuminate the surface.  



Pulse Sensor/ Heart Rate Sensor-The Pulse Sensor is a plug-and-play heart-rate sensor for Arduino. It can be used by students, artists, athletes, makers, and game & mobile developers who want to easily incorporate live heart-rate data into their projects. Essence it is an integrated optical amplifying circuit and noise eliminating circuit sensor.



a. What is pulse rate sensor? Pulse Sensor is a well-designed plug-and-play heart-rate sensor for Arduino. ... The sensor clips onto a fingertip or earlobe and plugs right into Arduino with some jumper cables. It also includes an open-source monitoring app that graphs your pulse in real time. b. How does a pulse sensor work? Pulse sensors use the photoelectric method. ... Transmission types measure pulse waves by emitting red or infrared light from the body surface and detecting the change in blood flow during heart beats as a change in the amount of light transmitted through the body.  



Accelerometer-Accelerometer is an electromechanical device that measures the force of acceleration due to gravity in g unit. It can be used in applications requiring tilt sensing. The ADXL335 measures acceleration along X, Y and Z axes and gives analog voltage output proportional to the acceleration along these 3 axes.



  a. What is the principle of accelerometer? The basic underlying working principle of an accelerometer is such as a dumped mass on a spring. When acceleration is experienced by this device, the mass gets displaced till the spring can easily move the mass, with the same rate equal to the acceleration it sensed. b. How does an accelerometer sensor work? An accelerometer is a device that measures the vibration, or acceleration of motion of a structure. The force caused by vibration or a change in motion (acceleration) causes the mass to "squeeze" the piezoelectric material which produces an electrical charge that is proportional to the force exerted upon it.  



Position Sensor-Position Sensors.



... As



their name implies, Position Sensors detect the position of something which means that they are referenced either to or from some fixed point or position. These types of sensors provide a “positional” feedback.



a. What is the principle of operation of potentiometric position sensor?



Potentiometric position sensor is operated based on the principle of resistive effect. A resistive track acts as a sensing element, and a wiper is attached to the body or part of the body whose displacement is to be measured. The wiper is also in contact with the track. b. How do Arduino sensors work? The Sharp proximity sensor can detect objects as close as 10 cm and as far away as 80 cm. It emits a pulse of infrared light and then detects the angle at which that light is reflected. The farther away an object is, the lower the output voltage. ... The sensor's output is connected to an Arduino analog input.  



Water/ Liquid Level Sensor-The water level sensor is super easy to use and only has 3 pins to connect. S (Signal) pin is an analog output that will be connected to one of the analog inputs on your Arduino. + (VCC)



pin



supplies



power



for



the



sensor.



It



is



recommended to power the sensor with between 3.3V – 5V.



a. How does a water level sensor work? Water level indicators work by using sensor probes to indicate water levels in a storage tank. These probes send information back to the control panel to trigger an alarm or indicator. As mentioned above, the control panel can be programmed to automatically turn on your pump to refill the water again. b. What is the use of water level sensor?



Level sensors are used to detect the level of substances that can flow. Such substances include liquids, slurries, granular material and powders. Level measurements can be done inside containers or it can be the level of a river or lake.  



Bio Sensor-Well, a device similar to a Life Alert medical alarm system can be made as a portable biosensor. We decided to invest time in this biosensor because we think it is important that the people in are community, especially those at risk of falls, are safe.



a. What is bio sensor write working and application? The simplest definition of a Biosensor is given here: A Biosensor is an analytical device that detects changes in Biological processes and converts them into an electrical signal. The term Biological process can be any biological element or material like enzymes, tissues, microorganisms, cells, acids, etc. b. How does a biosensor work? The term “biosensor” is short for “biological sensor.” The device is made up of a transducer and a biological element that may be an enzyme, an antibody or a nucleic acid. The bioelement interacts with the analyte being tested and the biological response is converted into an electrical signal by the transducer.  



Weight Sensor-HX711 is a 24bit ADC, which amplifies and digitally converts the Load cell output. Then this amplified



value is fed to the Arduino. Now Arduino calculates the output of HX711 and converts that into the weight values in grams and shows it on LCD. A push-button is used for calibrating the system.



a. How does a weight sensor work? By definition, a weight sensor is a type of transducer, specifically a weight transducer. It converts an input mechanical force such as load, weight, tension, compression, or pressure into another physical variable, in this case, into an electrical output signal that can be measured, converted and standardized. b. What is load cell working principle? Load cell is a sensor or a transducer that converts a load or force acting on it into an electronic signal. Resistive load cells work on the principle of piezo-resistivity. ... When a load/force/stress is applied to the sensor, it changes its resistance. c. How does a load cell measure weight? The electronic weighing machine uses a load cell to measure the weight produced by the load, here most load cells are following the method of a strain gauge, Which converts the pressure (force) into an electrical signal, these load cells have four strain gauges that are hooked up in a Wheatstone bridge formation.



Hall Effect Sensor-The



Arduino Hall effect



sensor code can be used to detect a magnet and count the number of times it detects it. This is a very simple Arduino code that utilizes the interrupt pin 0 (digital pin 2) of the Arduino. Whenever the Hall effect sensor detects a magnet, it outputs a HIGH (5V) voltage to its Vout pin.



a. What is the principle of Hall effect? The principle of Hall Effect states that when a current-carrying conductor or a semiconductor is introduced to a perpendicular magnetic field, a voltage can be measured at the right angle to the current path. b. How does a Hall effect sensor work? Using semiconductors (such as silicon), Hall effect sensors work by measuring the changing voltage when the device is placed in a magnetic field. In other words, once a Hall effect sensor detects that it is now in a magnetic field, it is able to sense the position of objects.  



DHT22 Humidity Sensor-The



DHT22 is a



basic, low-cost digital temperature and humidity sensor. It uses a capacitive humidity sensor and a thermistor to measure the surrounding air, and spits out a digital signal on the data pin (no analog input pins needed). ... Humidity: 0-100%, 2-5% accuracy. Temperature: -40 to 80°C, ±0.5°C accuracy.



a. How connect DHT22 to Arduino? Wiring – Connecting DHT11 and DHT22 to Arduino UNO Power the sensor with 5V and connect ground to ground. Finally, connect the Data pin to a digital pin #2. We also need to place a pullup resistor of 10KΩ between VCC and data line to keep it HIGH for proper communication between sensor and MCU.  



CMOS/ Image SensorThis is a low cost camera module, that can operate at a maximum of 30 fps and 640 x 480 ("VGA") resolutions, equivalent to 0.3 Megapixels. ... It provides full-frame, subsampled or windowed 8-bit images in various formats, controlled through the Serial Camera Control Bus (SCCB) interface.



a. How does a CMOS sensor work? Complementary Metal Oxide Semiconductor (CMOS) In a CMOS sensor, the charge from the photosensitive pixel is converted to a voltage at the pixel site and the signal is multiplexed by row and column to multiple on chip digital-to-analog converters (DACs). Inherent to its design, CMOS is a digital device. b. What is CMOS sensor type? A CMOS sensor is an electronic chip that converts photons to electrons for digital processing. CMOS (complementary metal oxide semiconductor) sensors are used to create images in digital cameras, digital video cameras and digital CCTV cameras.  



Eye Blink Sensor-This



Eye Blink sensor



senses the eyeblink using is infrared. The Variation Across the eye will vary as per eye blink. If the eye is closed, the output is high otherwise the output is low.



a. What is eye blink sensor? The eye-blink sensor works by illuminating the eye and eyelid area with infrared light, then monitoring the changes in the reflected light using a phototransistor and differentiator circuit. ... Digital Eye Blink monitor for Vehicle Accident prevention & . Suitable for real time driving applications. b. How does a blink sensor work? The project involves preventing accidents due to drowsiness in vehicles by using eye blink sensor. The IR transmitter transmits infrared rays into the eyes. The ray reflected from the eye is picked up by the receiver which is in a straight line to the transmitter.  



Part-3



3. All



components Arduino



used



with



Arduino UNO-The Arduino UNO is an open-source microcontroller board based on the Microchip ATmega328P



microcontroller and developed by Arduino.cc. The board is equipped with sets of digital and analog input/output (I/O) pins that may be interfaced to various expansion boards (shields) and other circuits. The board has 14 Digital pins, 6 Analog pins, and programmable with the Arduino IDE (Integrated Development Environment) via a type B USB cable. It can be powered by a USB cable or by an external 9 volt battery, though it accepts voltages between 7 and 20 volts. It is also similar to the Arduino Nano and Leonardo. The Uno board is the first in a series of USB Arduino boards, and the reference model for the Arduino platform. The ATmega328 on the Arduino Uno comes preprogrammed with a bootloader that allows uploading new code to it without the use of an external hardware programmer. It communicates using the original STK500 protocol. The Uno also differs from all preceding boards in that it does not use the FTDI USB-to-serial driver chip. Instead, it uses the Atmega16U2 (Atmega8U2 up to



version R2) programmed as a USB-toserial converter.



 



Arduino Nano-Arduino Nano



is a small,



compatible, flexible and breadboard friendly Microcontroller board,



developed



by



Arduino.cc



in



Italy,



based



on



ATmega328p ( Arduino Nano V3. x) / Atmega168 ( Arduino Nano V3. x). ... Arduino Nano Pinout contains 14 digital pins, 8 analog Pins, 2 Reset Pins & 6 Power Pins.



a. What is Arduino Nano used for?



Arduino Nano is one type of microcontroller board, and it is designed by Arduino.cc. It can be built with a microcontroller like Atmega328. This microcontroller is also used in Arduino UNO. It is a small size board and also flexible with a wide variety of applications. b. How does Arduino Nano work? Use your Arduino Nano on the Arduino Desktop IDE Open your first sketch. Open the LED blink example sketch: File > Examples > 01. ... Select your board type and port. Select Tools > Board > Arduino AVR Boards > Arduino Nano. Upload and Run your first Sketch. ... Learn more on the Desktop IDE. Arduino Mega 2560-The Arduino Mega 2560 is a microcontroller board based on the ATmega2560. It has 54 digital input/output pins (of which 15 can be used as PWM outputs), 16 analog inputs, 4 UARTs (hardware serial ports), a 16 MHz crystal oscillator, a USB connection, a power jack, an ICSP header, and a reset button.



a. What is the use of Arduino Mega 2560? The Arduino MEGA 2560 is designed for projects that require more I/O lines, more sketch memory and more RAM. With 54 digital I/O pins, 16 analog inputs and a larger space for your sketch it is the recommended board for 3D printers and robotics projects.  



NodeMCU ESP8266-NodeMCU is an open source firmware for which open source prototyping board designs are available. ... The firmware is based on the eLua project, and built on the Espressif Non-OS SDK for ESP8266. It uses many open source projects, such as lua-cjson and SPIFFS. NodeMCU has 128 KB RAM and 4MB of Flash memory to store data and programs. Its high processing power with in-built Wi-Fi / Bluetooth and Deep Sleep Operating features make it ideal for IoT projects. NodeMCU can be powered using Micro USB jack and VIN pin (External Supply Pin). It supports UART, SPI, and I2C interface. NodeMCU is an open source IoT platform.It includes firmware which runs on the ESP8266 Wi-Fi SoC from Espressif Systems, and hardware, which is based on the ESP-12 module. ... The firmware uses the Lua scripting language. The VIN pin not directly connected to the USB's 5V supply (at least on the LoLin v3 board). ... It is always on, and always 5V (or whatever your USB port happens to provide - 4.75v - 5.25v). You must never ever connect VIN to a power source and connect the USB socket.



4*4 Keypad-The



4*4 matrix keypad usually is



used as input in a project. It has 16 keys in total, which means the same input values. The SunFouner 4*4 Matrix



Keypad



Module



is



a



matrix



non-



encoded



keypad



consisting of 16 keys in parallel.



a. How does a 4x4 keypad work? How it Works. This 4x4 matrix keypad has 16 built-in pushbutton contacts connected to row and column lines. A microcontroller can scan these lines for a button-pressed state. In the keypad library, the Propeller sets all the column lines to input, and all the row lines to input. b. What is the function of keypad? The keypad is a section on most computer keyboards and allows an individual to quickly input numeric values into a computer. For example, the keypad is often used for anyone who deals with numbers frequently or has to perform calculations with a software calculator.  



OLED



Display



Module-Wiring



OLED



display module to Arduino Uno Start by connecting VCC pin to the 5V output on the Arduino and connect GND to ground. ... On the Arduino boards with the R3 layout, the SDA (data line) and SCL (clock line) are on the pin headers close to the AREF pin. They are also known as A5 (SCL) and A4 (SDA).



Display Technology: OLED (Organic LED) Interface: I2C / SPI Operating Voltage: 3.3V – 5V



MCU



a. How does OLED display work? OLEDs work in a similar way to conventional diodes and LEDs, but instead of using layers of n-type and p-type semiconductors, they use organic molecules to produce their electrons and holes. A simple OLED is made up of six different layers. On the top and bottom there are layers of protective glass or plastic.  



RFID Car Reader



A radio frequency identification reader (RFID reader) is a device used to gather information from an RFID tag, which is used to track individual objects. Radio waves are used to transfer data from the tag to a reader. RFID is a technology similar in theory to bar codes. However, the RFID tag does not have to be scanned directly, nor does it require line-of-sight to a reader. The RFID tag it must be within the range of an RFID reader, which ranges from 3 to 300 feet, in order to be read. RFID technology allows several items to be quickly scanned and enables fast identification of a particular product, even when it is surrounded by several other items.



RFID tags have not replaced bar codes because of their cost and the need to individually identify every item.



a. What is RFID card reader? Radio-frequency identification (RFID) uses electromagnetic fields to automatically identify and track tags attached to objects. ... When triggered by an electromagnetic interrogation pulse from a nearby RFID reader device, the tag transmits digital data, usually an identifying inventory number, back to the reader. b. How do RFID card readers work? RFID methods utilize radio waves to accomplish this. ... RFID tags contain an integrated circuit and an antenna, which are used to transmit data to the RFID reader (also called an interrogator). The reader then converts the radio waves to a more usable form of data.  



Laser Module-This 100mW



laser module emits a small intense focused beam of visible red light. The module can be used with an Arduino and photo resistor module to perform basic remote signaling. ... You should never look directly in to its beam or point the laser at another person.



a. What is a laser module? In the laser display industry the term “laser module” stands for a device that emits a single static laser beam of single or multiple wavelengths - or colours if we talk about the visible spectrum of light. b. What is the function of laser? Laser, a device that stimulates atoms or molecules to emit light at particular wavelengths and amplifies that light, typically producing a very narrow beam of radiation. The emission generally covers an extremely limited range of visible, infrared, or ultraviolet wavelengths.  



DS3231 RTC Module/Clock Module-The DS3231 is an RTC IC developed by Maxim Integrated. It is a low cost, extremely accurate RTC IC with communication over I2C Interface. An interesting feature of DS3231 RTC IC is that it has integrated crystal oscillator and temperature sensor and hence you don't have to connect an external crystal.



a. What is a clock module? Introduction. The SparkFun Real Time Clock Module is a simple breakout board for the DS1307 real-time clock (RTC). It can accurately keep track of seconds, minutes, hours, days, months, and years for almost a decade, so your microcontroller doesn't have to. b. How does RTC module work? An RTC maintains its clock by counting the cycles of an oscillator – usually an external 32.768kHz crystal oscillator circuit, an internal capacitor based oscillator, or even an embedded quartz crystal. ... Some RTCs maintain the oscillator setting at the last known point before it went out of lock with the input.  



7 Segment Display-It has all the external circuit required to drive a 4 Digit 7 Segment Display. ... This display connects to an Arduino using 2 wires only! Using only 2 Digital Input/Output pins for communication, it allows you to use the other pins for your project.



a. What is the application of 7 segment display? Applications of Seven Segment Displays The applications of seven segments are mostly in digital calculators, electronic meters, digital clocks, odometers, digital clocks, clock radios, etc. Today most of the 7 segment applications are using LCDs, because of low current consumption. b. How does a 7 segment display work? The 7-segment displays are really just seven LEDs lined up in a particular pattern. ... Each of the seven LEDs is called a segment because when illuminated the segment forms part of a numerical digit (both Decimal and Hex) to be displayed. An additional 8th LED is sometimes used for indication of a decimal point.



ESP32 CAM WiFI Module-The ESP32 CAM WiFi Module Bluetooth with OV2640 Camera Module 2MP For Face Recognization has a very competitive small-size camera module that can operate independently as a minimum system with a footprint of only 40 x 27 mm; a deep sleep current of up to 6mA and is widely used in various IoT applications.



a. What is ESP32 camera module? Overview. The ESP32-CAM is a small size, low power consumption camera module based on ESP32. It comes with an OV2640 camera and provides onboard TF card slot. The ESP32-CAM can be widely used in intelligent IoT applications such as wireless video monitoring, WiFi image upload, QR identification, and so on. b. How do I know if my ESP32 cam is working? 1) Go to Tools > Board and select AI-Thinker ESP32-CAM. 2) Go to Tools > Port and select the COM port the ESP32 is connected to. 3) Then, click the upload button to upload the code. 4) When you start to see these dots on the debugging window as shown below, press the ESP32-CAM on-board RST button.



nRF24L01 Module-nRF24L01



is a single chip radio transceiver for the world wide 2.4 - 2.5 GHz ISM band. The transceiver consists of a fully integrated frequency synthesizer, a power amplifier, a crystal oscillator, a demodulator, modulator and Enhanced ShockBurst™ protocol engine.



a. How do I know if nRF24L01 is working? Open Serial Monitor on the IDE window for Mega2560, and you can see the received data printed every 500ms, that is, Rx = 85, 170, 17. It indicates both NRF24L01 modules work.  



Fingerprint Module-These



modules come with FLASH memory to store the fingerprints and work with any microcontroller or system with TTL serial. These modules can be added to security systems, door locks, time attendance systems, and much more.



a. What is fingerprint sensor module? Fingerprint sensor module is used as a way to verify identity. ... This module has a rich command set for operating functions such as to enroll/verify/identify fingerprints, read/write fingerprint template file, get fingerprint image and so on. It uses UART interface (3.3V level, TTL) to communicate with external devices. b. What are fingerprint scanners used for? A fingerprint scanner is a device used to identify a person by scanning their fingerprints. We have several ridges on our fingers. Additionally, every person has a unique pattern. Hence, a fingerprint scanner scans them to identify us.  



GSM Module-A



GSM/GPRS Module is an IC or chip that connects to the GSM Network using a SIM (Subscriber Identity Module) and Radio Waves. The common radio frequencies in which a typical GSM Module operates are 850MHz, 900MHz, 1800MHz and 1900MHz.



a. What is GSM module? A GSM modem or GSM module is a hardware device that uses GSM mobile telephone technology to provide a data link to a remote network. From the view of the mobile phone network, they are



essentially identical to an ordinary mobile phone, including the need for a SIM to identify themselves to the network. b. What is GSM module used for? A GSM GPRS Module is used to enable communication between a microcontroller (or a microprocessor) and the GSM / GPSR Network. Here, GSM stands for Global System for Mobile Communication and GPRS stands for General Packet Radio Service.



GPS Module-Global Positioning System (GPS) is a satellite-based system that uses satellites and ground stations to measure and compute its position on Earth. GPS is also known as Navigation System with Time and Ranging (NAVSTAR) GPS. GPS receiver needs to receive data from at least 4 satellites for accuracy purpose.



a. What is a GPS module? GPS receivers use a constellation of satellites and ground stations to compute position and time almost anywhere on earth. ... With this information and some math, a ground based receiver or GPS module can calculate its position and time. b. How do I know if my GPS module is working? okey, boy, give you a very simple to check if your GPS work, do not need Arduino or any code. connect the gps to directly to your UART of computer, if your computor do not have a uart, just use a USB2UART convert, like the ch340 module orFt232 module , and then open the uart monitor .... the gps module will report.  



L298N Motor Driver-This L298N Motor Driver Module is a high power motor driver module for driving DC and Stepper Motors. This module consists of an L298 motor driver IC and a 78M05 5V regulator. L298N Module can control up to 4 DC motors, or 2 DC motors with directional and speed control.



  a. What is L298N motor driver? This L298N Motor Driver Module is a high power motor driver module for driving DC and Stepper Motors. This module consists of an L298 motor driver IC and a 78M05 5V regulator. L298N Module can control up to 4 DC motors, or 2 DC motors with directional and speed control.   b. What is the use of motor driver? A motor driver is a small Current Amplifier whose function is to take a low-current control signal and then turn it into a higher-current signal that can drive a motor. The L293D is a typical Motor Driver which can drive 2 DC motors simultaneously.  



L293D Motor Driver Module-Widely used in robotics, motor driving applications and heavy project applications. This l293d module can drive 4 dc motor in one direction, or drive 2 dc motor in both



direction. With terminal blocks for connecting motors and power supply and berg sticks for control signals from microcontroller.



a. What is L293D motor driver? The L293D is a popular 16-Pin Motor Driver IC. As the name suggests it is mainly used to drive motors. A single L293D IC is capable of running two DC motors at the same time; also the direction of these two motors can be controlled independently. b. How does L293D motor driver work? How Motor Driver Operates? The L293D IC receives signals from the microprocessor and transmits the relative signal to the motors. It has two voltage pins, one of which is used to draw current for the working of the L293D and the other is used to apply voltage to the motors.



BO Motor-DC motor (BO) Battery Operation. Dc motor converts electrical energy into mechanical energy. Why DC gear motor used in robot Motor control circuit. DC



MOTOR concept is where gears reduce the speed of the vehicle but increase its torque is known as gear reduction.



Motor Wheel-This is 65mm Robot Wheel for BO Motor (Yellow). The wheel is made up of high-quality rubber which gives maximum traction while operating. The wheel is strong and sturdy as it features a nylon reinforced plastic rim.



Motor 200RPM-200 RPM 12V geared motors widely use



DC for



robotics applications. Very easy to use and available in standard size. ... DC Geared motors with robust metal gearbox for heavy-duty applications, available in the wide RPM range and ideally suited for robotics and industrial applications.



 



Motor Wheel-



 



Relay-A



relay is an electrically operated switch. It



consists of a set of input terminals for a single or multiple



control signals, and a set of operating contact terminals. The switch may have any number of contacts in multiple contact forms, such as make contacts, break contacts, or combinations thereof.



Relays are used where it is necessary to control a circuit by an independent low-power signal, or where several circuits must be controlled by one signal. Relays were first used in long-distance telegraph circuits as signal repeaters: they refresh the signal coming in from one circuit by transmitting it on another circuit. Relays were used extensively in telephone exchanges and early computers to perform logical operations. The traditional form of a relay uses an electromagnet to close or open the contacts, but other operating principles have been invented, such as in solid-state relays which use semiconductor properties for control without relying on moving parts. Relays with calibrated operating characteristics and sometimes multiple operating coils are used to protect electrical circuits from overload or faults; in modern electric power systems these functions are performed by digital instruments still called protective relays.



 



2Channel 5volt Relay Kit-This is a 5V 4-channel relay interface board, and each channel needs a 15-20mA driver current. It can be used to control various appliances and equipment with large current. It is equiped with high-current relays that work under



AC250V 10A or DC30V 10A. It has a standard interface that can be controlled directly by microcontroller.  



 



4Channel 5volt Relay Kit-This is a 5V 4-channel relay interface board, and each channel needs a 15-20mA driver current. It can be used to control various appliances and equipment with large current. It is equiped with high-current relays that work under AC250V 10A or DC30V 10A. It has a standard interface that can be controlled directly by microcontroller.  



 



Bluetooth Module HC-05-HC-05 module is an easy to use Bluetooth SPP (Serial Port Protocol) module, designed for transparent wireless serial connection setup. Serial port Bluetooth module is fully qualified Bluetooth V2.0+EDR (Enhanced Data Rate) 3Mbps Modulation with complete 2.4GHz radio transceiver and baseband. It uses CSR Bluecore 04-External single chip Bluetooth system with CMOS technology and with AFH(Adaptive Frequency Hopping Feature). It has the footprint as small as 12.7mmx27mm. Hope it will simplify your overall design/development cycle.



a. How does HC-05 Bluetooth module work? HC-05 has red LED which indicates connection status, whether the Bluetooth is connected or not. Before connecting to HC-05 module this red LED blinks continuously in a periodic manner. When it gets connected to any other Bluetooth device, its blinking slows down to two seconds. This module works on 3.3 V. b. What is the range of Bluetooth module HC-05? 10 meters It uses the 2.45GHz frequency band. The transfer rate of the data can vary up to 1Mbps and is in range of 10 meters. The HC-05 module can be operated within 4-6V of power supply. It supports baud rate of 9600, 19200, 38400, 57600, etc.  



Servo Motor-A servomotor is a



rotary actuator or linear actuator that allows for precise control of



angular or linear position, velocity and acceleration. It consists of a suitable motor coupled to a sensor for position feedback. It also requires a relatively sophisticated controller, often a dedicated module designed specifically for use with servomotors. Servomotors are not a specific class of motor although the term servomotor is often used to refer to a motor suitable for use in a closed-loop control system.



a. What is a servo motor How does it work? The servo motor is a closed-loop mechanism that incorporates positional feedback in order to control the rotational or linear speed and position. The motor is controlled with an electric signal, either analog or digital, which determines the amount of movement which represents the final command position for the shaft. b. What is the advantage of servo motor? Servo motors achieve high speed at high torque values. Quiet at high speeds. Encoder utilization provides higher accuracy and resolution with closed-loop control.  



LCD Display-An LCD is an electronic display module that uses liquid crystal to produce a visible image. The 16×2 LCD display is a very basic module commonly used in DIYs and circuits. The 16×2 translates o a display 16 characters per line in 2



such lines. In this LCD each character is displayed in a 5×7 pixel matrix.



a. What does 16 mean in 16x2 LCD? A 16x2 LCD means it can display 16 characters per line and there are 2 such lines. In this LCD each character is displayed in 5x7 pixel matrix. The 16 x 2 intelligent alphanumeric dot matrix display is capable of displaying 224 different characters and symbols. This LCD has two registers, namely, Command and Data. b. How do you use 16 2 LCD display? 16×2 Character LCD Pinout VCC is the power supply for the LCD which we connect the 5 volts pin on the Arduino. Vo (LCD Contrast) controls the contrast and brightness of the LCD. ... RS (Register Select) pin lets the Arduino tell the LCD whether it is sending commands or the data.  



Breadboard-A breadboard is a solderless device for temporary prototype with electronics and test circuit designs. Most electronic



components in electronic circuits can be interconnected by inserting their leads or terminals into the holes and then making connections through wires where appropriate. The breadboard has strips of metal underneath the board and connect the holes on the top of the board. The metal strips are laid out as shown below. Note that the top and bottom rows of holes are connected horizontally and split in the middle while the remaining holes are connected vertically.



a. What is a breadboard and how does it work? A breadboard is a rectangular plastic board with a bunch of tiny holes in it. These holes let you easily insert electronic components to prototype (meaning to build and test an early version of) an electronic circuit, like this one with a battery, switch, resistor, and an LED (lightemitting diode). b. What is breadboard explain? A thin plastic board used to hold electronic components (transistors, resistors, chips, etc.) ... Used to develop prototypes of electronic circuits, breadboards can be reused for future jobs. They can be used to create one-of-a-kind systems but rarely become commercial products. See printed circuit board.  



Joystick Switch-Joystick switches



or joysticks are manually actuated control devices for installation in control and front panels as well as in portable control equipment. They are used wherever motion sequences analogous to the actuation direction are controlled by hand.



a. What is joystick switch? A joystick is an input device consisting of a stick that pivots on a base and reports its angle or direction to the device it is controlling. ... Joysticks are often used to control video games, and usually have one or more push-buttons whose state can also be read by the computer. b. How does a joystick work? Basically, joystick detects the direction you are holding the stick in by use of an electronic switch. There is a printed circuit board inside the joystick base. The terminals can't complete the electric circuit when the joystick is in a neutral state (the stick is not pressing the contacts into the 'on' position).  



Mini Solar Panel-The electric field produced comprises almost constant voltage but current that varies with the amount of sunlight falling on the cells. A typical mini solar panel can generate between 0.06 and 4 watts of electric power.



 



CNC Shield-This



CNC shield software is designed



to control a CNC or a 3D printer. It comes with 4 sockets A4988



stepper



driver.



This



board



has



Arduino



connections and pins for engine and other peripherals.



pin



  a. What is CNC shield? The CNC Shield V3. 0 allows you to build a engraving machine, 3D printer, mini CNC and other similar devices using your Arduino. It is designed as a shield and can plug on top of an Arduino requiring no external connections and wiring. b. What is shield used for? Shields are used to intercept specific attacks, whether from closeranged weaponry or projectiles such as arrows, by means of active blocks, as well as to provide passive protection by closing one or more lines of engagement during combat.  



CNC Driver A4988-The A4988 is a complete Microstepping Motor Driver with built-in translator for easy operation. The driver has a maximum output capacity of 35 V and ± 2 A. It can operate bipolar stepper motors in full-, half-, quarter-, eighth-, and sixteenth-step modes.



a. What is A4988 driver? The A4988 is a microstepping driver for controlling bipolar stepper motors which has built-in translator for easy operation. This means that we can control the stepper motor with just 2 pins from our controller, or one for controlling the rotation direction and the other for controlling the steps. b. How does A4988 work? The A4988 driver allows microstepping by allowing intermediate step locations. This is achieved by energizing the coils with intermediate current levels. For example, if you choose to drive NEMA 17 having 1.8° or 200 steps per revolution in quarter-step mode, the motor will give 800 microsteps per revolution.  



CNC Driver DRV8825-The



DRV8825 is a



Motor Driver with two H-bridge drivers and a micro stepping indexer. The driver has a maximum output capacity of 45 V and ± 2.5 A. It can operate bipolar stepper motors in full, 1/2, 1/4, 1/8, 1/16 and 1/32-step modes. This driver module is generally used in Robotics, ATMs and Gaming Machines.



  a. What is DRV8825? The DRV8825 is a stepper motor driver board that has on a DRV8825_chip that enables control of stepper motors through arduino type programming firmware and software. ... It is one of the two most popular add-on stepper motor driver boards, along with the 4988.  



Stepper Motor-Stepper motors are DC motors that move in discrete steps. They have multiple coils that are organized in groups called "phases". By energizing each phase in sequence, the motor will rotate, one step at a time. With a computer controlled stepping you can achieve very precise positioning and/or speed control.



a. What is stepper motor and its working? A stepper motor is an electromechanical device it converts electrical power into mechanical power. ... Stepper motors are similar to switched reluctance motors. The stepper motor uses the theory of operation for magnets to make the motor shaft turn a precise distance when a pulse of electricity is provided.



  b. What is a stepper motor used for? The stepper motor is used for precise positioning with a motor, such as hard disk drives, robotics, antennas, telescopes, and some toys. Stepper motors cannot run at high speeds, but have a high holding torque.  



Jumper wire-A



jump wire (also known as jumper wire, or jumper) is an electrical wire, or group of them in a cable, with a connector or pin at each end (or sometimes without them – simply "tinned"), which is normally used to interconnect the components of a breadboard or other prototype or test circuit, internally or with other equipment or components, without soldering.